A 2D/3D switching system contains a 2D/3D switching device having a display area for selectively processing lights from 2D images and 3D images. The 2D/3D switching device includes a first substrate, a plurality of first electrodes formed on the first substrate, a second substrate, a plurality of second electrodes formed on the second substrate and arranged corresponding to the plurality of first electrodes and separated with a distance, and a liquid crystal layer placed between the first substrate and the second substrate to provide the display area. A driving unit is configured to provide driving voltages to the plurality of first electrodes and the plurality of second electrodes. The driving unit applies a plurality of voltages on the first electrodes and the second electrodes to enable the liquid crystal layer to operate in one of a full-screen 2D mode, a full-screen 3D mode, and a 2D/3D mode.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A 2D/3D switching system, comprising: a 2D/3D switching device having a display area for selectively processing lights from 2D images and 3D images, including: a first substrate; a plurality of first electrodes formed on the first substrate; a second substrate; a plurality of second electrodes formed on the second substrate and arranged corresponding to the plurality of first electrodes and separated with a distance; a liquid crystal layer placed between the first substrate having the plurality of first electrodes and the second substrate having the plurality of second electrodes to provide the display area; and a driving unit coupled to the plurality of first electrodes and the plurality of second electrodes to provide driving voltages to the plurality of first electrodes and the plurality of second electrodes, wherein the second electrodes are arranged into a plurality of groups and the driving unit applies one or more voltages on the first electrodes and the second electrodes to enable the liquid crystal layer to operate in one of a full-screen 2D mode, a full-screen 3D mode, and a 2D/3D mode; wherein, in the 2D/3D mode, various driving voltages are applied on each of the plurality of groups of the second electrodes associated with a 3D display window, a uniform driving voltage is applied on each of the plurality of groups the second electrodes associated with a 2D display window; a first driving voltage is applied on first electrodes associated with the 3D display window; and a second driving voltage is applied on first electrodes associated with the 2D display window; and wherein difference between the uniform driving voltage and the first driving voltage is below a threshold voltage of the liquid crystal; difference between the uniform driving voltage and the second driving voltage is above a saturation voltage of the liquid crystal; difference between the various driving voltages and the first driving voltage is between the threshold voltage and the saturation voltage; and difference between the various driving voltages and the second driving voltage is above the saturation voltage.
2. The 2D/3D switching system according to claim 1 , wherein: in the full-screen 2D mode, the uniform driving voltage is applied to all second electrodes and the second driving voltage is applied to all first electrodes.
3. The 2D/3D switching system according to claim 1 , wherein: in the full-screen 3D mode, the various driving voltages are applied on each of the plurality of groups of all second electrodes and the first driving voltage is applied to all first electrodes.
4. The 2D/3D switching system according to claim 3 , wherein: the various driving voltages are greater than or equal to the threshold voltage but less than or equal to the saturation voltage.
5. The 2D/3D switching system according to claim 4 , wherein: a total number of electrodes in a group of second electrodes determine a width of a liquid crystal lens unit controlled by the group of second electrodes.
6. The 2D/3D switching system according to claim 1 , wherein: the various driving voltages are arranged in a ‘U’ shape gradient, with voltage being the largest on outer electrodes of the lens unit and becoming smaller towards center electrodes of the lens unit.
7. The 2D/3D switching system according to claim 6 , wherein: the total number of electrodes in a group of the second electrodes is five.
8. A method for a 2D/3D switching device for selectively processing lights from 2D images and 3D images, the 2D/3D switching device having a first substrate, a plurality of first electrodes formed on the first substrate, a second substrate, a plurality of second electrodes formed on the second substrate and arranged corresponding to the plurality of first electrodes and separated with a distance, and a liquid crystal layer placed between the first substrate having the plurality of first electrodes and the second substrate having the plurality of second electrodes to provide a display area, the method comprising: individually providing driving voltages to the plurality of first electrodes and the plurality of second electrodes arranged into a plurality of groups of second electrodes; and applying one or more voltages on the first electrodes and the second electrodes to enable the liquid crystal layer to operate in one of a full-screen 2D mode, a full-screen 3D mode, and a 2D/3D mode; wherein, in the 2D/3D mode, various driving voltages are applied on each of the plurality of groups of the second electrodes associated with a 3D display window, a uniform driving voltage is applied on each of the plurality of groups the second electrodes associated with a 2D display window; a first driving voltage is applied on first electrodes associated with the 3D display window; and a second driving voltage is applied on first electrodes associated with the 2D display window; and wherein difference between the uniform driving voltage and the first driving voltage is below a threshold voltage of the liquid crystal; difference between the uniform driving voltage and the second driving voltage is above a saturation voltage of the liquid crystal; difference between the various driving voltages and the first driving voltage is between the threshold voltage and the saturation voltage; and difference between the various driving voltages and the second driving voltage is above the saturation voltage.
9. The method according to claim 8 , wherein applying one or more voltages in the full-screen 2D mode further includes: in the full-screen 2D mode, applying the uniform driving voltage to all second electrodes and applying the second driving voltage to all first electrodes.
10. The method according to claim 9 , wherein applying one or more voltages in the full-screen 3D mode further includes: in the full-screen 3D mode, applying the various driving voltages on each of the plurality of groups of all second electrodes and applying the first driving voltage to all first electrodes.
11. The method according to claim 10 , wherein: the various driving voltages are greater than or equal to the threshold voltage but less than or equal to the saturation voltage.
12. The method according to claim 11 , wherein: a total number of electrodes in a group of second electrodes determine a width of a liquid crystal lens unit controlled by the group of second electrodes.
13. The method according to claim 11 , wherein: the various driving voltages are arranged in a ‘U’ shape gradient, with voltage being the largest on outer electrodes of the lens unit and becoming smaller towards center electrodes of the lens unit.
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August 20, 2013
October 28, 2014
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